selected publications
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academic article
- TheLotus japonicusUbiquitin Ligase SIE3 Interacts With the Transcription Factor SIP1 and Forms a Homodimer. Frontiers in Plant Science. 11:795. 2020
- A Missense Mutation in LGS1 Increases Grain Size and Enhances Cold Tolerance in Rice. Journal of Experimental Botany. 2019
- An MAP kinase interacts with LHK1 and regulates nodule organogenesis in Lotus japonicus.. Science China-Life sciences. 62:1203-1217. 2019
- Arabidopsis NUCLEOSTEMIN-LIKE 1 (NSN1) regulates cell cycling potentially by cooperating with nucleosome assembly protein AtNAP1;1. BMC Plant Biology. 18:99. 2018
- Nodules with activated defense 1 is required for maintenance of rhizobial endosymbiosis in Medicago truncatula.. New Phytologist. 212:176-191. 2016
- Efficient Inactivation of Symbiotic Nitrogen Fixation Related Genes in Lotus japonicus Using CRISPR-Cas9. Frontiers in Plant Science. 7. 2016
- Homeobox Is Pivotal for OsWUS Controlling Tiller Development and Female Fertility in Rice. G3: Genes Genomes Genetics. 6:2013-2021. 2016
- Phytosulfokine Is Involved in Positive Regulation of Lotus japonicus Nodulation. Molecular Plant-Microbe Interactions. 28:847-855. 2015
- A Lotus japonicus Cochaperone Protein Interacts With the Ubiquitin-Like Domain Protein CIP73 and Plays a Negative Regulatory Role in Nodulation. Molecular Plant-Microbe Interactions. 28:534-545. 2015
- Lotus japonicus Clathrin Heavy Chain1 Is Associated with Rho-Like GTPase ROP6 and Involved in Nodule Formation. Plant Physiology. 167:1497-1510. 2015
- A mutation of the cellulose-synthase-like (CslF6) gene in barley (Hordeum vulgare L.) partially affects the beta-glucan content in grains. Journal of Cereal Science. 59:189-195. 2014
- A MYB coiled-coil transcription factor interacts with NSP2 and is involved in nodulation in Lotus japonicus. New Phytologist. 201:837-849. 2014
- Identification of Differentially Expressed Proteins and Phosphorylated Proteins in Rice Seedlings in Response to Strigolactone Treatment. Frontiers in Sustainable Food Systems. 9. 2014
- Molecular and Chemical Characterization of a New Waxy Allele in Barley (Hordeum vulgare L.). Cereal Chemistry. 91:438-444. 2014
- Splice variants of the SIP1 transcripts play a role in nodule organogenesis in Lotus japonicus. Plant Molecular Biology. 82:97-111. 2013
- Identification of a co-segregative protein associated with the tillering trait in rice (Oryza sativa L.). Plant Omics. 6:36-45. 2013
- A Ubiquitin Ligase of Symbiosis Receptor Kinase Involved in Nodule Organogenesis. Plant Physiology. 160:106-117. 2012
- The Small GTPase ROP6 Interacts with NFR5 and Is Involved in Nodule Formation in Lotus japonicus. Plant Physiology. 159:131-143. 2012
- A nucleostemin-like GTPase required for normal apical and floral meristem development in Arabidopsis. Molecular Biology of the Cell. 23:1446-1456. 2012
- A MAP Kinase Kinase Interacts with SymRK and Regulates Nodule Organogenesis in Lotus japonicus. The Plant cell. 24:823-838. 2012
- Expression of Arabidopsis callose synthase 5 results in callose accumulation and cell wall permeability alteration. Plant Science. 183:1-8. 2012
- Nucleostemin-like 1 is required for embryogenesis and leaf development in Arabidopsis. Plant Molecular Biology. 78:31-44. 2012
- A novel interaction between {CCaMK} and a protein containing the {Scythe\_N} ubiquitin-like domain in Lotus japonicus. Plant Physiology. 155:1312-1324. 2011
- {CalS7} encodes a callose synthase responsible for callose deposition in the phloem. The Plant journal: for cell and molecular biology. 65:1-14. 2011
- Dysregulation of cell-to-cell connectivity and stomatal patterning by loss-of-function mutation in Arabidopsis chorus (glucan synthase-like 8). Development. 137:1731-1741. 2010
- Precocious pollen germination in Arabidopsis plants with altered callose deposition during microsporogenesis. Planta. 231:809-823. 2010
- A novel RNA-binding protein associated with cell plate formation. Plant Physiology. 148:223-234. 2008
- A novel ARID DNA-Binding protein interacts with SymRK and is expressed during early nodule development in Lotus japonicus. Plant Physiology. 148:337-347. 2008